版本14和15间的区别
于2007-12-07 07:59:51修订的的版本14
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编辑: czk
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于2008-02-23 15:37:07修订的的版本15
大小: 41391
编辑: localhost
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[[TableOfContents]] <<TableOfContents>>

目录

  1. 入门
    1. 第一个C语言程序
    2. 摄氏华氏温度对照表
    3. 温度对照表第2版
    4. 温度对照表第3版
    5. 温度对照表第4版
    6. 文件复制
    7. 文件复制第2版
    8. 字符计数
    9. 字符计数第2版
    10. 行计数
    11. 单词计数
    12. 数字字符计数
    13. 函数
    14. power函数第2版
    15. 最长的行
    16. 最长的行第2版
  2. 类型、运算符和表达式
    1. 字符串长度
    2. 字符串转整数
    3. 大写变小写
    4. 随机函数
    5. 字符串删除
    6. 字符串连接
    7. 位运算
    8. 位计数
  3. 控制流
    1. 折半查找
    2. 数字字符计数第2版
    3. 字符串转整数第2版
    4. 希尔排序
    5. 字符串翻转
    6. 整数转字符串
    7. 字符串裁剪
  4. 函数
    1. 模式查找
    2. 字符串转浮点数
    3. 调用atof
    4. 字符串转整数第3版
    5. 计算器
    6. 打印整数
    7. 快速排序
  5. 指针与数组
    1. 交换两个变量的值
    2. 读取整数
    3. 求字符串长度
    4. 内存分配程序
    5. 字符串拷贝
    6. 字符串拷贝第2版
    7. 字符串拷贝第3版
    8. 字符串拷贝第4版
    9. 字符串比较
    10. 字符串比较第2版
    11. 文本行排序
    12. 输出所有行函数第2版
    13. 文本行排序函数
    14. 日期转换
    15. 月份名称
    16. 参数回显
    17. 参数回显第2版
    18. 模式查找第2版
    19. 模式查找第3版
    20. 行排序程序
    21. 复杂声明
  6. 结构
    1. 坐标点和矩形结构
    2. 创建坐标结构
    3. 坐标相加
    4. 判断点是否在矩形中
    5. 矩形规范化
    6. 关键字统计

1. 入门

1.1. 第一个C语言程序

写一个程序,在屏幕上输出hello, world 

   1 #include <stdio.h>
   2 
   3 main()
   4 {
   5     printf("hello, world\n");
   6 }

1.2. 摄氏华氏温度对照表

使用公式℃=(5/9)(℉-32) 打印华氏温度与摄氏温度对照表 

   1 #include <stdio.h>
   2 
   3 /* print Fahrenheit-Celsius table
   4    for fahr = 0, 20, ..., 300 */
   5 main()
   6 {
   7     int fahr, celsius;
   8     int lower, upper, step;
   9 
  10     lower = 0;      /* lower limit of temperature scale */
  11     upper = 300;    /* upper limit */
  12     step = 20;      /* step size */
  13 
  14     fahr = lower;
  15     while (fahr <= upper) {
  16         celsius = 5 * (fahr-32) / 9;
  17         printf("%d\t%d\n", fahr, celsius);
  18         fahr = fahr + step;
  19     }
  20 }

1.3. 温度对照表第2版

上述的温度转换程序存在两个问题。比较简单的问题是,由于输出的数不是右对齐的,所以输出的结果不是很美观。另一个较为严重的问题是,由于我们使用的是整型算术运算,因此经计算得到的摄氏温度值不太精确,例如,与0℉对应的精确的摄氏温度应该为-17.8℃,而不是-17℃。 

   1 #include <stdio.h>
   2 
   3 /* print Fahrenheit-Celsius table
   4    for fahr = 0, 20, ..., 300; floating-point version */
   5 main()
   6 {
   7     float fahr, celsius;
   8     float lower, upper, step;
   9 
  10     lower = 0;      /* lower limit of temperatuire scale */
  11     upper = 300;    /* upper limit */
  12     step = 20;      /* step size */
  13 
  14     fahr = lower;
  15     while (fahr <= upper) {
  16         celsius = (5.0/9.0) * (fahr-32.0);
  17         printf("%3.0f %6.1f\n", fahr, celsius);
  18         fahr = fahr + step;
  19     }
  20 }

1.4. 温度对照表第3版

对于某个特定任务我们可以采用多种方法来编写程序。上面这个程序如果把while循环改成for循环,程序可以更简洁。 

   1 #include <stdio.h>
   2 
   3 /* print Fahrenheit-Celsius table */
   4 main()
   5 {
   6     int fahr;
   7 
   8     for (fahr = 0; fahr <= 300; fahr = fahr + 20)
   9         printf("%3d %6.1f\n", fahr, (5.0/9.0)*(fahr-32));
  10 }

1.5. 温度对照表第4版

对于前面程序中出现的上限、下限、步长等值,使用变量是不恰当的,因为它们不会变,直接使用常数也是不恰当的,因为这样不容易理解。正确的方法之一是使用宏定义: 

   1 #include <stdio.h>
   2 
   3 #define LOWER  0     /* lower limit of table */
   4 #define UPPER  300   /* upper limit */
   5 #define STEP   20    /* step size */
   6 
   7 /* print Fahrenheit-Celsius table */
   8 main()
   9 {
  10     int fahr;
  11 
  12     for (fahr = LOWER; fahr <= UPPER; fahr = fahr + STEP)
  13         printf("%3d %6.1f\n", fahr, (5.0/9.0)*(fahr-32));
  14 }

1.6. 文件复制

把输入一次一个字符地复制到输出 

   1 #include <stdio.h>
   2 
   3 /* copy input to output; 1st version  */
   4 main()
   5 {
   6     int c;
   7 
   8     c = getchar();
   9     while (c != EOF) {
  10         putchar(c);
  11         c = getchar();
  12     }
  13 }

1.7. 文件复制第2版

对于经验比较丰富的C语言程序员,可以把这个字符复制程序编写得更精炼一些。 

   1 #include <stdio.h>
   2 
   3 /* copy input to output; 2nd version  */
   4 main()
   5 {
   6     int c;
   7 
   8     while ((c = getchar()) != EOF)
   9         putchar(c);
  10 }

1.8. 字符计数

下列程序用于对字符进行计数,它与上面的复制程序类似。 

   1 #include <stdio.h>
   2 
   3 /* count characters in input; 1st version */
   4 main()
   5 {
   6     long nc;
   7 
   8     nc = 0;
   9     while (getchar() != EOF)
  10         ++nc;
  11     printf("%ld\n", nc);
  12 }

1.9. 字符计数第2版

   1 #include <stdio.h>
   2 
   3 /* count characters in input; 2nd version */
   4 main()
   5 {
   6     double nc;
   7 
   8     for (nc = 0; getchar() != EOF; ++nc)
   9         ;
  10     printf("%.0f\n", nc);
  11 }

1.10. 行计数

接下来的这个程序用于统计输入中的行数。 

   1 #include <stdio.h>
   2 
   3 /* count lines in input */
   4 main()
   5 {
   6     int c, nl;
   7 
   8     nl = 0;
   9     while ((c = getchar()) != EOF)
  10         if (c == '\n')
  11             ++nl;
  12     printf("%d\n", nl);
  13 }

1.11. 单词计数

写一个程序用于统计行数、单词数与字符数 

   1 #include <stdio.h>
   2 
   3 #define IN   1  /* inside a word */
   4 #define OUT  0  /* outside a word */
   5 
   6 /* count lines, words, and characters in input */
   7 main()
   8 {
   9     int c, nl, nw, nc, state;
  10 
  11     state = OUT;
  12     nl = nw = nc = 0;
  13     while ((c = getchar()) != EOF) {
  14         ++nc;
  15         if (c == '\n')
  16             ++nl;
  17         if (c == ' ' || c == '\n' || c = '\t')
  18             state = OUT;
  19         else if (state == OUT) {
  20             state = IN;
  21             ++nw;
  22         }
  23     }
  24     printf("%d %d %d\n", nl, nw, nc);
  25 }

1.12. 数字字符计数

编写一个程序,以统计各个数字、空白符(包括空格符、制表符及换行符)以及所有其他字符出现的次数 

   1    #include <stdio.h>
   2 
   3    /* count digits, white space, others */
   4    main()
   5    {
   6        int c, i, nwhite, nother;
   7        int ndigit[10];
   8 
   9        nwhite = nother = 0;
  10        for (i = 0; i < 10; ++i)
  11            ndigit[i] = 0;
  12 
  13        while ((c = getchar()) != EOF)
  14            if (c >= '0' && c <= '9')
  15                ++ndigit[c-'0'];
  16            else if (c == ' ' || c == '\n' || c == '\t')
  17                ++nwhite;
  18            else
  19                ++nother;
  20 
  21        printf("digits =");
  22        for (i = 0; i < 10; ++i)
  23            printf(" %d", ndigit[i]);
  24        printf(", white space = %d, other = %d\n",
  25            nwhite, nother);
  26    }

1.13. 函数

写一个求幂的函数power(m,n) 

   1    #include <stdio.h>
   2 
   3    int power(int m, int n);
   4 
   5     /* test power function */
   6     main()
   7     {
   8         int i;
   9 
  10         for (i = 0; i < 10; ++i)
  11             printf("%d %d %d\n", i, power(2,i), power(-3,i));
  12         return 0;
  13     }
  14 
  15     /* power:  raise base to n-th power; n >= 0 */
  16     int power(int base, int n)
  17     {
  18         int i,  p;
  19 
  20         p = 1;
  21         for (i = 1; i <= n; ++i)
  22             p = p * base;
  23         return p;
  24     }

1.14. power函数第2版

   1    /* power:  raise base to n-th power; n >= 0; version 2 */
   2    int power(int base, int n)
   3    {
   4        int p;
   5 
   6        for (p = 1; n > 0; --n)
   7            p = p * base;
   8        return p;
   9    }

1.15. 最长的行

写一个程序读入一组文本行,并把最长的文本行打印出来。 

   1    #include <stdio.h>
   2    #define MAXLINE 1000   /* maximum input line length */
   3 
   4    int getline(char line[], int maxline);
   5    void copy(char to[], char from[]);
   6 
   7    /* print the longest input line */
   8    main()
   9    {
  10        int len;            /* current line length */
  11        int max;            /* maximum length seen so far */
  12        char line[MAXLINE];    /* current input line */
  13        char longest[MAXLINE]; /* longest line saved here */
  14 
  15        max = 0;
  16        while ((len = getline(line, MAXLINE)) > 0)
  17            if (len > max) {
  18                max = len;
  19                copy(longest, line);
  20            }
  21        if (max > 0)  /* there was a line */
  22            printf("%s", longest);
  23        return 0;
  24    }
  25 
  26    /* getline:  read a line into s, return length  */
  27    int getline(char s[],int lim)
  28    {
  29        int c, i;
  30 
  31        for (i=0; i < lim-1 && (c=getchar())!=EOF && c!='\n'; ++i)
  32            s[i] = c;
  33        if (c == '\n') {
  34            s[i] = c;
  35            ++i;
  36        }
  37        s[i] = '\0';
  38        return i;
  39    }
  40 
  41    /* copy:  copy 'from' into 'to'; assume to is big enough */
  42    void copy(char to[], char from[])
  43    {
  44        int i;
  45 
  46        i = 0;
  47        while ((to[i] = from[i]) != '\0')
  48            ++i;
  49    }

1.16. 最长的行第2版

使用全局变量来实现 

   1    #include <stdio.h>
   2 
   3    #define MAXLINE 1000    /* maximum input line size */
   4 
   5    int max;                /* maximum length seen so far */
   6    char line[MAXLINE];     /* current input line */
   7    char longest[MAXLINE];  /* longest line saved here */
   8 
   9    int getline(void);
  10    void copy(void);
  11 
  12    /* print longest input line; specialized version */
  13    main()
  14    {
  15        int len;
  16        extern int max;
  17        extern char longest[];
  18 
  19        max = 0;
  20        while ((len = getline()) > 0)
  21            if (len > max) {
  22                max = len;
  23                copy();
  24            }
  25        if (max > 0)  /* there was a line */
  26            printf("%s", longest);
  27        return 0;
  28    }
  29 
  30    /* getline:  specialized version */
  31    int getline(void)
  32    {
  33        int c, i;
  34        extern char line[];
  35 
  36        for (i = 0; i < MAXLINE - 1
  37             && (c=getchar)) != EOF && c != '\n'; ++i)
  38                 line[i] = c;
  39        if (c == '\n') {
  40            line[i] = c;
  41            ++i;
  42        }
  43        line[i] = '\0';
  44        return i;
  45    }
  46 
  47    /* copy: specialized version */
  48    void copy(void)
  49    {
  50        int i;
  51        extern char line[], longest[];
  52 
  53        i = 0;
  54        while ((longest[i] = line[i]) != '\0')
  55            ++i;
  56    }

2. 类型、运算符和表达式

2.1. 字符串长度

写一个函数求字符串的长度 

   1    /* strlen:  return length of s */
   2    int strlen(char s[])
   3    {
   4        int i;
   5 
   6        while (s[i] != '\0')
   7            ++i;
   8        return i;
   9    }

2.2. 字符串转整数

写一个函数将包含一串数字的字符串转换成整数 

   1    /* atoi:  convert s to integer */
   2    int atoi(char s[])
   3    {
   4        int i, n;
   5 
   6        n = 0;
   7        for (i = 0; s[i] >= '0' && s[i] <= '9'; ++i)
   8            n = 10 * n + (s[i] - '0');
   9        return n;
  10    }

2.3. 大写变小写

写一个函数,将大写字母变成小写字母,其他字符不变。 

   1    /* lower:  convert c to lower case; ASCII only */
   2    int lower(int c)
   3    {
   4        if (c >= 'A' && c <= 'Z')
   5            return c + 'a' - 'A';
   6        else
   7            return c;
   8    }

2.4. 随机函数

写一个函数,用来产生随机的整数 

   1    unsigned long int next = 1;
   2 
   3    /* rand:  return pseudo-random integer on 0..32767 */
   4    int rand(void)
   5    {
   6        next = next * 1103515245 + 12345;
   7        return (unsigned int)(next/65536) % 32768;
   8    }
   9 
  10    /* srand:  set seed for rand() */
  11    void srand(unsigned int seed)
  12    {
  13        next = seed;
  14    }

2.5. 字符串删除

写一个函数squeeze(s, c),删除字符串s中所有的字符c。 

   1    /* squeeze:  delete all c from s */
   2    void squeeze(char s[], int c)
   3    {
   4       int i, j;
   5 
   6       for (i = j = 0; s[i] != '\0'; i++)
   7           if (s[i] != c)
   8               s[j++] = s[i];
   9       s[j] = '\0';
  10    }

2.6. 字符串连接

写一个函数strcat(s,t),它将字符串t连接到字符串s的尾部 

   1    /* strcat:  concatenate t to end of s; s must be big enough */
   2    void strcat(char s[], char t[])
   3    {
   4        int i, j;
   5 
   6        i = j = 0;
   7        while (s[i] != '\0') /* find end of s */
   8            i++;
   9        while ((s[i++] = t[j++]) != '\0') /* copy t */
  10            ;
  11    }

2.7. 位运算

写一个函数getbits(x,p,n),它返回x中从右边数第p位开始向右数n位的字段 

   1    /* getbits:  get n bits from position p */
   2    unsigned getbits(unsigned x, int p, int n)
   3    {
   4        return (x >> (p+1-n)) & ~(~0 << n);
   5    }

2.8. 位计数

函数bitcount统计其整型参数的值为1的二进制位的个数 

   1    /* bitcount:  count 1 bits in x */
   2    int bitcount(unsigned x)
   3    {
   4        int b;
   5 
   6        for (b = 0; x != 0; x >>= 1)
   7            if (x & 01)
   8                b++;
   9        return b;
  10    }

3. 控制流

3.1. 折半查找

   1    /* binsearch:  find x in v[0] <= v[1] <= ... <= v[n-1] */
   2    int binsearch(int x, int v[], int n)
   3    {
   4        int low, high, mid;
   5 
   6        low = 0;
   7        high = n - 1;
   8        while (low <= high) {
   9            mid = (low+high)/2;
  10            if (x < v[mid])
  11                high = mid + 1;
  12            else if (x  > v[mid])
  13                low = mid + 1;
  14            else    /* found match */
  15                return mid;
  16        }
  17        return -1;   /* no match */
  18    }

3.2. 数字字符计数第2版

   1    #include <stdio.h>
   2 
   3    main()  /* count digits, white space, others */
   4    {
   5        int c, i, nwhite, nother, ndigit[10];
   6 
   7        nwhite = nother = 0;
   8        for (i = 0; i < 10; i++)
   9            ndigit[i] = 0;
  10        while ((c = getchar()) != EOF) {
  11            switch (c) {
  12            case '0': case '1': case '2': case '3': case '4':
  13            case '5': case '6': case '7': case '8': case '9':
  14                ndigit[c-'0']++;
  15                break;
  16            case ' ':
  17            case '\n':
  18            case '\t':
  19                nwhite++;
  20                break;
  21            default:
  22                nother++;
  23                break;
  24            }
  25        }
  26        printf("digits =");
  27        for (i = 0; i < 10; i++)
  28            printf(" %d", ndigit[i]);
  29        printf(", white space = %d, other = %d\n",
  30            nwhite, nother);
  31        return 0;
  32    }

3.3. 字符串转整数第2版

   1    #include <ctype.h>
   2 
   3    /* atoi:  convert s to integer; version 2 */
   4    int atoi(char s[])
   5    {
   6        int i, n, sign;
   7 
   8        for (i = 0; isspace(s[i]); i++)  /* skip white space */
   9            ;
  10        sign = (s[i] == '-') ? -1 : 1;
  11        if (s[i] == '+' || s[i] == '-')  /* skip sign */
  12            i++;
  13        for (n = 0; isdigit(s[i]); i++)
  14            n = 10 * n + (s[i] - '0');
  15        return sign * n;
  16    }

3.4. 希尔排序

   1    /* shellsort:  sort v[0]...v[n-1] into increasing order */
   2    void shellsort(int v[], int n)
   3    {
   4        int gap, i, j, temp;
   5 
   6        for (gap = n/2; gap > 0; gap /= 2)
   7            for (i = gap; i < n; i++)
   8                for (j=i-gap; j>=0 && v[j]>v[j+gap]; j-=gap) {
   9                    temp = v[j];
  10                    v[j] = v[j+gap];
  11                    v[j+gap] = temp;
  12                }
  13    }

3.5. 字符串翻转

   1    #include <string.h>
   2 
   3    /* reverse:  reverse string s in place */
   4    void reverse(char s[])
   5    {
   6        int c, i, j;
   7 
   8        for (i = 0, j = strlen(s)-1; i < j; i++, j--) {
   9            c = s[i];
  10            s[i] = s[j];
  11            s[j] = c;
  12        }
  13    }

3.6. 整数转字符串

   1    /* itoa:  convert n to characters in s */
   2    void itoa(int n, char s[])
   3    {
   4        int i, sign;
   5 
   6        if ((sign = n) < 0)  /* record sign */
   7            n = -n;          /* make n positive */
   8        i = 0;
   9        do {      /* generate digits in reverse order */
  10            s[i++] = n % 10 + '0';  /* get next digit */
  11        } while ((n /= 10) > 0);    /* delete it */
  12        if (sign < 0)
  13            s[i++] = '-';
  14        s[i] = '\0';
  15        reverse(s);
  16    }

3.7. 字符串裁剪

   1    /* trim:  remove trailing blanks, tabs, newlines */
   2    int trim(char s[])
   3    {
   4        int n;
   5 
   6        for (n = strlen(s)-1; n >= 0; n--)
   7            if (s[n] != ' ' && s[n] != '\t' && s[n] != '\n')
   8                break;
   9        s[n+1] = '\0';
  10        return n;
  11    }

4. 函数

4.1. 模式查找

设计并编写一个程序,它将输入中包含特定“模式”或字符串的各行打印出来(这是UNIX程序grep的特例) 

   1    #include <stdio.h>
   2    #define MAXLINE 1000 /* maximum input line length */
   3 
   4    int getline(char line[], int max)
   5    int strindex(char source[], char searchfor[]);
   6 
   7    char pattern[] = "ould";   /* pattern to search for */
   8 
   9    /* find all lines matching pattern */
  10    main()
  11    {
  12        char line[MAXLINE];
  13        int found = 0;
  14 
  15        while (getline(line, MAXLINE) > 0)
  16            if (strindex(line, pattern) >= 0) {
  17                printf("%s", line);
  18                found++;
  19            }
  20        return found;
  21    }
  22 
  23    /* getline:  get line into s, return length */
  24    int getline(char s[], int lim)
  25    {
  26        int c, i;
  27 
  28        i = 0;
  29        while (--lim > 0 && (c=getchar()) != EOF && c != '\n')
  30            s[i++] = c;
  31        if (c == '\n')
  32            s[i++] = c;
  33        s[i] = '\0';
  34        return i;
  35    }
  36 
  37    /* strindex:  return index of t in s, -1 if none */
  38    int strindex(char s[], char t[])
  39    {
  40        int i, j, k;
  41 
  42        for (i = 0; s[i] != '\0'; i++) {
  43            for (j=i, k=0; t[k]!='\0' && s[j]==t[k]; j++, k++)
  44                ;
  45            if (k > 0 && t[k] == '\0')
  46                return i;
  47        }
  48        return -1;
  49    }

4.2. 字符串转浮点数

函数atof把字符串s转换为相应的双精度浮点数,是atoi函数的扩展 

   1    #include <ctype.h>
   2 
   3    /* atof:  convert string s to double */
   4    double atof(char s[])
   5    {
   6        double val, power;
   7        int i, sign;
   8 
   9        for (i = 0; isspace(s[i]); i++)  /* skip white space */
  10            ;
  11        sign = (s[i] == '-') ? -1 : 1;
  12        if (s[i] == '+' || s[i] == '-')
  13            i++;
  14        for (val = 0.0; isdigit(s[i]); i++)
  15            val = 10.0 * val + (s[i] - '0');
  16        if (s[i] == '.')
  17            i++;
  18        for (power = 1.0; isdigit(s[i]); i++) {
  19            val = 10.0 * val + (s[i] - '0');
  20            power *= 10;
  21        }
  22        return sign * val / power;
  23    }

4.3. 调用atof

   1    #include <stdio.h>
   2 
   3    #define MAXLINE 100
   4 
   5    /* rudimentary calculator */
   6    main()
   7    {
   8        double sum, atof(char []);
   9        char line[MAXLINE];
  10        int getline(char line[], int max);
  11 
  12        sum = 0;
  13        while (getline(line, MAXLINE) > 0)
  14            printf("\t%g\n", sum += atof(line));
  15        return 0;
  16    }

4.4. 字符串转整数第3版

在函数atof的基础上,我们可以利用它编写出函数atoi(将字符串转换为int类型) 

   1    /* atoi:  convert string s to integer using atof */
   2    int atoi(char s[])
   3    {
   4        double atof(char s[]);
   5 
   6        return (int) atof(s);
   7    }

4.5. 计算器

编写一个具有加(+)、减(-)、乘(*)、除(/)四则运算功能的计算器程序。为了更容易实现,我们在计算器中使用逆波兰表示法代替普通的中缀表示法,比如: (1 - 2) * (4 + 5) 采用逆波兰表示法表示为: 1 2 - 4 5 + * 

   1    #include <stdio.h>
   2    #include <stdlib.h>  /* for  atof() */
   3 
   4    #define MAXOP   100  /* max size of operand or operator */
   5    #define NUMBER  '0'  /* signal that a number was found */
   6 
   7    int getop(char []);
   8    void push(double);
   9    double pop(void);
  10 
  11    /* reverse Polish calculator */
  12    main()
  13    {
  14        int type;
  15        double op2;
  16        char s[MAXOP];
  17 
  18        while ((type = getop(s)) != EOF) {
  19            switch (type) {
  20            case NUMBER:
  21                push(atof(s));
  22                break;
  23            case '+':
  24                push(pop() + pop());
  25                break;
  26            case '*':
  27                push(pop() * pop());
  28                break;
  29            case '-':
  30                op2 = pop();
  31                push(pop() - op2);
  32                break;
  33            case '/':
  34                op2 = pop();
  35                if (op2 != 0.0)
  36                    push(pop() / op2);
  37                else
  38                    printf("error: zero divisor\n");
  39                break;
  40            case '\n':
  41                printf("\t%.8g\n", pop());
  42                break;
  43            default:
  44                printf("error: unknown command %s\n", s);
  45                break;
  46            }
  47        }
  48        return 0;
  49    }


   1    #include <ctype.h>
   2 
   3    int getch(void);
   4    void ungetch(int);
   5 
   6    /* getop:  get next character or numeric operand */
   7    int getop(char s[])
   8    {
   9        int i, c;
  10 
  11        while ((s[0] = c = getch()) == ' ' || c == '\t')
  12            ;
  13        s[1] = '\0';
  14        if (!isdigit(c) && c != '.')
  15            return c;      /* not a number */
  16        i = 0;
  17        if (isdigit(c))    /* collect integer part */
  18            while (isdigit(s[++i] = c = getch()))
  19               ;
  20        if (c == '.')      /* collect fraction part */
  21            while (isdigit(s[++i] = c = getch()))
  22               ;
  23        s[i] = '\0';
  24        if (c != EOF)
  25            ungetch(c);
  26        return NUMBER;
  27    }


   1    #define BUFSIZE 100
   2 
   3    char buf[BUFSIZE];    /* buffer for ungetch */
   4    int bufp = 0;         /* next free position in buf */
   5 
   6    int getch(void)  /* get a (possibly pushed-back) character */
   7    {
   8        return (bufp > 0) ? buf[--bufp] : getchar();
   9    }
  10 
  11    void ungetch(int c)   /* push character back on input */
  12    {
  13        if (bufp >= BUFSIZE)
  14            printf("ungetch: too many characters\n");
  15        else
  16            buf[bufp++] = c;
  17    }

4.6. 打印整数

   1    #include <stdio.h>
   2 
   3    /* printd:  print n in decimal */
   4    void printd(int n)
   5    {
   6        if (n < 0) {
   7            putchar('-');
   8            n = -n;
   9        }
  10        if (n / 10)
  11            printd(n / 10);
  12        putchar(n % 10 + '0');
  13    }

4.7. 快速排序

   1    /* qsort:  sort v[left]...v[right] into increasing order */
   2    void qsort(int v[], int left, int right)
   3    {
   4        int i, last;
   5        void swap(int v[], int i, int j);
   6 
   7        if (left >= right) /* do nothing if array contains */
   8            return;        /* fewer than two elements */
   9        swap(v, left, (left + right)/2); /* move partition elem */
  10        last = left;                     /* to v[0] */
  11        for (i = left + 1; i <= right; i++)  /* partition */
  12            if (v[i] < v[left])
  13                swap(v, ++last, i);
  14        swap(v, left, last);            /* restore partition  elem */
  15        qsort(v, left, last-1);
  16        qsort(v, last+1, right);
  17    }


   1    /* swap:  interchange v[i] and v[j] */
   2    void swap(int v[], int i, int j)
   3    {
   4        int temp;
   5 
   6        temp = v[i];
   7        v[i] = v[j];
   8        v[j] = temp;
   9    }

5. 指针与数组

5.1. 交换两个变量的值

   1    void swap(int *px, int *py)  /* interchange *px and *py */
   2    {
   3        int temp;
   4 
   5        temp = *px;
   6        *px = *py;
   7        *py = temp;
   8    }

5.2. 读取整数

   1    #include <ctype.h>
   2 
   3    int getch(void);
   4    void ungetch(int);
   5 
   6    /* getint:  get next integer from input into *pn */
   7    int getint(int *pn)
   8    {
   9        int c, sign;
  10 
  11        while (isspace(c = getch()))   /* skip white space */
  12            ;
  13        if (!isdigit(c) && c != EOF && c != '+' && c != '-') {
  14            ungetch(c);  /* it is not a number */
  15            return 0;
  16        }
  17        sign = (c == '-') ? -1 : 1;
  18        if (c == '+' || c == '-')
  19            c = getch();
  20        for (*pn = 0; isdigit(c), c = getch())
  21            *pn = 10 * *pn + (c - '0');
  22        *pn *= sign;
  23        if (c != EOF)
  24            ungetch(c);
  25        return c;
  26    }

5.3. 求字符串长度

   1    /* strlen:  return length of string s */
   2    int strlen(char *s)
   3    {
   4        int n;
   5 
   6        for (n = 0; *s != '\0', s++)
   7            n++;
   8        return n;
   9    }

5.4. 内存分配程序

   1    #define ALLOCSIZE 10000 /* size of available space */
   2 
   3    static char allocbuf[ALLOCSIZE]; /* storage for alloc */
   4    static char *allocp = allocbuf;  /* next free position */
   5 
   6    char *alloc(int n)    /* return pointer to n characters */
   7    {
   8        if (allocbuf + ALLOCSIZE - allocp >= n) {  /* it fits */
   9            allocp += n;
  10            return allocp - n; /* old p */
  11        } else      /* not enough room */
  12            return 0;
  13    }
  14 
  15    void afree(char *p)  /* free storage pointed to by p */
  16    {
  17        if (p >= allocbuf && p < allocbuf + ALLOCSIZE)
  18            allocp = p;
  19    }

5.5. 字符串拷贝

   1    /* strcpy:  copy t to s; array subscript version */
   2    void strcpy(char *s, char *t)
   3    {
   4        int i;
   5 
   6        i = 0;
   7        while ((s[i] = t[i]) != '\0')
   8            i++;
   9    }

5.6. 字符串拷贝第2版

   1    /* strcpy:  copy t to s; pointer version */
   2    void strcpy(char *s, char *t)
   3    {
   4        int i;
   5 
   6        i = 0;
   7        while ((*s = *t) != '\0') {
   8            s++;
   9            t++;
  10        }
  11    }

5.7. 字符串拷贝第3版

   1    /* strcpy:  copy t to s; pointer version 2 */
   2    void strcpy(char *s, char *t)
   3    {
   4        while ((*s++ = *t++) != '\0')
   5            ;
   6    }

5.8. 字符串拷贝第4版

   1    /* strcpy:  copy t to s; pointer version 3 */
   2    void strcpy(char *s, char *t)
   3    {
   4        while (*s++ = *t++)
   5            ;
   6    }

5.9. 字符串比较

   1    /* strcmp:  return <0 if s<t, 0 if s==t, >0 if s>t */
   2    int strcmp(char *s, char *t)
   3    {
   4        int i;
   5 
   6        for (i = 0; s[i] == t[i]; i++)
   7            if (s[i] == '\0')
   8                return 0;
   9        return s[i] - t[i];
  10    }

5.10. 字符串比较第2版

   1    /* strcmp:  return <0 if s<t, 0 if s==t, >0 if s>t */
   2    int strcmp(char *s, char *t)
   3    {
   4        for ( ; *s == *t; s++, t++)
   5            if (*s == '\0')
   6                return 0;
   7        return *s - *t;
   8    }

5.11. 文本行排序

该程序按字母顺序对由文本行组成的集合进行排序。 

   1    #include <stdio.h>
   2    #include <string.h>
   3 
   4    #define MAXLINES 5000     /* max #lines to be sorted */
   5 
   6    char *lineptr[MAXLINES];  /* pointers to text lines */
   7 
   8    int readlines(char *lineptr[], int nlines);
   9    void writelines(char *lineptr[], int nlines);
  10 
  11    void qsort(char *lineptr[], int left, int right);
  12 
  13    /* sort input lines */
  14    main()
  15    {
  16        int nlines;     /* number of input lines read */
  17 
  18        if ((nlines = readlines(lineptr, MAXLINES)) >= 0) {
  19            qsort(lineptr, 0, nlines-1);
  20            writelines(lineptr, nlines);
  21            return 0;
  22        } else {
  23            printf("error: input too big to sort\n");
  24            return 1;
  25        }
  26    }
  27 
  28    #define MAXLEN 1000  /* max length of any input line */
  29    int getline(char *, int);
  30    char *alloc(int);
  31 
  32    /* readlines:  read input lines */
  33    int readlines(char *lineptr[], int maxlines)
  34    {
  35        int len, nlines;
  36        char *p, line[MAXLEN];
  37 
  38        nlines = 0;
  39        while ((len = getline(line, MAXLEN)) > 0)
  40            if (nlines >= maxlines || p = alloc(len) == NULL)
  41                return -1;
  42            else {
  43                line[len-1] = '\0';  /* delete newline */
  44                strcpy(p, line);
  45                lineptr[nlines++] = p;
  46            }
  47        return nlines;
  48    }
  49 
  50    /* writelines:  write output lines */
  51    void writelines(char *lineptr[], int nlines)
  52    {
  53        int i;
  54 
  55        for (i = 0; i < nlines; i++)
  56            printf("%s\n", lineptr[i]);
  57    }

5.12. 输出所有行函数第2版

   1    /* writelines:  write output lines */
   2    void writelines(char *lineptr[], int nlines)
   3    {
   4        while (nlines-- > 0)
   5            printf("%s\n", *lineptr++);
   6    }

5.13. 文本行排序函数

   1    /* qsort:  sort v[left]...v[right] into increasing order */
   2    void qsort(char *v[], int left, int right)
   3    {
   4        int i, last;
   5        void swap(char *v[], int i, int j);
   6 
   7        if (left >= right)  /* do nothing if array contains */
   8            return;         /* fewer than two elements */
   9        swap(v, left, (left + right)/2);
  10        last = left;
  11        for (i = left+1; i <= right; i++)
  12            if (strcmp(v[i], v[left]) < 0)
  13                swap(v, ++last, i);
  14        swap(v, left, last);
  15        qsort(v, left, last-1);
  16        qsort(v, last+1, right);
  17    }


   1    /* swap:  interchange v[i] and v[j] */
   2    void swap(char *v[], int i, int j)
   3    {
   4        char *temp;
   5 
   6        temp = v[i];
   7        v[i] = v[j];
   8        v[j] = temp;
   9    }

5.14. 日期转换

我们考虑一个日期转换的问题:把某月某日这种日期表示形式转换为某年中第几天的表示形式,反之亦然。 

   1    static char daytab[2][13] = {
   2        {0, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31},
   3        {0, 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}
   4    };
   5 
   6    /* day_of_year:  set day of year from month & day */
   7    int day_of_year(int year, int month, int day)
   8    {
   9        int i, leap;
  10        leap = year%4 == 0 && year%100 != 0 || year%400 == 0;
  11        for (i = 1; i < month; i++)
  12            day += daytab[leap][i];
  13        return day;
  14    }
  15 
  16    /* month_day:  set month, day from day of year */
  17    void month_day(int year, int yearday, int *pmonth, int *pday)
  18    {
  19        int i, leap;
  20 
  21        leap = year%4 == 0 && year%100 != 0 || year%400 == 0;
  22        for (i = 1; yearday > daytab[leap][i]; i++)
  23            yearday -= daytab[leap][i];
  24        *pmonth = i;
  25        *pday = yearday;
  26    }

5.15. 月份名称

考虑这样一个问题:编写一个函数month_name(n),它返回一个指向第n个月名字的字符串的指针。 

   1    /* month_name:  return name of n-th month */
   2    char *month_name(int n)
   3    {
   4        static char *name[] = {
   5            "Illegal month",
   6            "January", "February", "March",
   7            "April", "May", "June",
   8            "July", "August", "September",
   9            "October", "November", "December"
  10        };
  11 
  12        return (n < 1 || n > 12) ? name[0] : name[n];
  13    }

5.16. 参数回显

写一个程序echo,它将命令行参数回显在屏幕上的一行中,其中命令行中各参数之间用空格隔开。 

   1    #include <stdio.h>
   2 
   3    /* echo command-line arguments; 1st version */
   4    main(int argc, char *argv[])
   5    {
   6        int i;
   7 
   8        for (i = 1; i < argc; i++)
   9            printf("%s%s", argv[i], (i < argc-1) ? " " : "");
  10        printf("\n");
  11        return 0;
  12    }

5.17. 参数回显第2版

   1    #include <stdio.h>
   2 
   3    /* echo command-line arguments; 2nd version */
   4    main(int argc, char *argv[])
   5    {
   6        while (--argc > 0)
   7            printf("%s%s", *++argv, (argc > 1) ? " " : "");
   8        printf("\n");
   9        return 0;
  10    }

5.18. 模式查找第2版

通过命令行的第一个参数指定待匹配的模式 

   1    #include <stdio.h>
   2    #include <string.h>
   3    #define MAXLINE 1000
   4 
   5    int getline(char *line, int max);
   6 
   7    /* find:  print lines that match pattern from 1st arg */
   8    main(int argc, char *argv[])
   9    {
  10        char line[MAXLINE];
  11        int found = 0;
  12 
  13        if (argc != 2)
  14            printf("Usage: find pattern\n");
  15        else
  16            while (getline(line, MAXLINE) > 0)
  17                if (strstr(line, argv[1]) != NULL) {
  18                    printf("%s", line);
  19                    found++;
  20                }
  21        return found;
  22    }

5.19. 模式查找第3版

用-x(代表except)表示打印所有与模式不匹配的文本行,用-n(代表number)表示打印行号 

   1    #include <stdio.h>
   2    #include <string.h>
   3    #define MAXLINE 1000
   4 
   5    int getline(char *line, int max);
   6 
   7    /* find: print lines that match pattern from 1st arg */
   8    main(int argc, char *argv[])
   9    {
  10        char line[MAXLINE];
  11        long lineno = 0;
  12        int c, except = 0, number = 0, found = 0;
  13 
  14        while (--argc > 0 && (*++argv)[0] == '-')
  15            while (c = *++argv[0])
  16                switch (c) {
  17                case 'x':
  18                    except = 1;
  19                    break;
  20                case 'n':
  21                    number = 1;
  22                    break;
  23                default:
  24                    printf("find: illegal option %c\n", c);
  25                    argc = 0;
  26                    found = -1;
  27                    break;
  28                }
  29        if (argc != 1)
  30            printf("Usage: find -x -n pattern\n");
  31        else
  32            while (getline(line, MAXLINE) > 0) {
  33                lineno++;
  34                if ((strstr(line, *argv) != NULL) != except) {
  35                    if (number)
  36                        printf("%ld:", lineno);
  37                    printf("%s", line);
  38                    found++;
  39                }
  40            }
  41        return found;
  42    }

5.20. 行排序程序

在给定可选参数-n的情况下,该函数将按数值大小而非字典顺序对输入行进行排序。 

   1    #include <stdio.h>
   2    #include <string.h>
   3 
   4    #define MAXLINES 5000     /* max #lines to be sorted */
   5    char *lineptr[MAXLINES];  /* pointers to text lines */
   6 
   7    int readlines(char *lineptr[], int nlines);
   8    void writelines(char *lineptr[], int nlines);
   9 
  10    void qsort(void *lineptr[], int left, int right,
  11               int (*comp)(void *, void *));
  12    int numcmp(char *, char *);
  13 
  14    /* sort input lines */
  15    main(int argc, char *argv[])
  16    {
  17        int nlines;        /* number of input lines read */
  18        int numeric = 0;   /* 1 if numeric sort */
  19 
  20        if (argc > 1 && strcmp(argv[1], "-n") == 0)
  21            numeric = 1;
  22        if ((nlines = readlines(lineptr, MAXLINES)) >= 0) {
  23            qsort((void**) lineptr, 0, nlines-1,
  24              (int (*)(void*,void*))(numeric ? numcmp : strcmp));
  25            writelines(lineptr, nlines);
  26            return 0;
  27        } else {
  28            printf("input too big to sort\n");
  29            return 1;
  30        }
  31    }


   1    /* qsort:  sort v[left]...v[right] into increasing order */
   2    void qsort(void *v[], int left, int right,
   3               int (*comp)(void *, void *))
   4    {
   5        int i, last;
   6 
   7        void swap(void *v[], int, int);
   8 
   9        if (left >= right)    /* do  nothing if array contains */
  10            return;           /* fewer than two elements */
  11        swap(v, left, (left + right)/2);
  12        last = left;
  13        for (i = left+1; i <= right;  i++)
  14            if ((*comp)(v[i], v[left]) < 0)
  15                swap(v, ++last, i);
  16        swap(v, left, last);
  17        qsort(v, left, last-1, comp);
  18        qsort(v, last+1, right, comp);
  19    }


   1    #include <stdlib.h>
   2 
   3    /* numcmp:  compare s1 and s2 numerically */
   4    int numcmp(char *s1, char *s2)
   5    {
   6        double v1, v2;
   7 
   8        v1 = atof(s1);
   9        v2 = atof(s2);
  10        if (v1 < v2)
  11            return -1;
  12        else if (v1 > v2)
  13            return 1;
  14        else
  15            return 0;
  16    }


   1    void swap(void *v[],  int i, int j;)
   2    {
   3        void *temp;
   4 
   5        temp = v[i];
   6        v[i] = v[j];
   7        v[j] = temp;
   8    }

5.21. 复杂声明

   1    /* dcl:  parse a declarator */
   2    void dcl(void)
   3    {
   4        int ns;
   5 
   6        for (ns = 0; gettoken() == '*'; ) /* count *'s */
   7            ns++;
   8        dirdcl();
   9        while (ns-- > 0)
  10            strcat(out, " pointer to");
  11    }
  12 
  13    /* dirdcl:  parse a direct declarator */
  14    void dirdcl(void)
  15    {
  16        int type;
  17 
  18        if (tokentype == '(') {         /* ( dcl ) */
  19            dcl();
  20            if (tokentype != ')')
  21                printf("error: missing )\n");
  22        } else if (tokentype == NAME)  /* variable name */
  23            strcpy(name, token);
  24        else
  25            printf("error: expected name or (dcl)\n");
  26        while ((type=gettoken()) == PARENS || type == BRACKETS)
  27            if (type == PARENS)
  28                strcat(out, " function returning");
  29            else {
  30                strcat(out, " array");
  31                strcat(out, token);
  32                strcat(out, " of");
  33            }
  34    }


   1    #include <stdio.h>
   2    #include <string.h>
   3    #include <ctype.h>
   4 
   5    #define MAXTOKEN  100
   6 
   7    enum { NAME, PARENS, BRACKETS };
   8 
   9    void dcl(void);
  10    void dirdcl(void);
  11 
  12    int gettoken(void);
  13    int tokentype;           /* type of last token */
  14    char token[MAXTOKEN];    /* last token string */
  15    char name[MAXTOKEN];     /* identifier name */
  16    char datatype[MAXTOKEN]; /* data type = char, int, etc. */
  17    char out[1000];
  18 
  19    main()  /* convert declaration to words */
  20    {
  21        while (gettoken() != EOF) {   /* 1st token on line */
  22            strcpy(datatype, token);  /* is the datatype */
  23            out[0] = '\0';
  24            dcl();       /* parse rest of line */
  25            if (tokentype != '\n')
  26                printf("syntax error\n");
  27            printf("%s: %s %s\n", name, out, datatype);
  28        }
  29        return 0;
  30    }


   1    int gettoken(void)  /* return next token */
   2    {
   3        int c, getch(void);
   4        void ungetch(int);
   5        char *p = token;
   6 
   7        while ((c = getch()) == ' ' || c == '\t')
   8            ;
   9        if (c == '(') {
  10            if ((c = getch()) == ')') {
  11                strcpy(token, "()");
  12                return tokentype = PARENS;
  13            } else {
  14                ungetch(c);
  15                return tokentype = '(';
  16            }
  17        } else if (c == '[') {
  18            for (*p++ = c; (*p++ = getch()) != ']'; )
  19                ;
  20            *p = '\0';
  21            return tokentype = BRACKETS;
  22        } else if (isalpha(c)) {
  23            for (*p++ = c; isalnum(c = getch()); )
  24                *p++ = c;
  25            *p = '\0';
  26            ungetch(c);
  27            return tokentype = NAME;
  28        } else
  29            return tokentype = c;
  30 
  31    }

6. 结构

6.1. 坐标点和矩形结构

   1 struct point {
   2     int x;
   3     int y;
   4 };
   5 struct rect {
   6     struct point pt1;
   7     struct point pt2;
   8 };

6.2. 创建坐标结构

   1 /* makepoint:  make a point from x and y components */
   2 struct point makepoint(int x, int y)
   3 {
   4     struct point temp;
   5 
   6     temp.x = x;
   7     temp.y = y;
   8     return temp;
   9 }

6.3. 坐标相加

   1    /* addpoints:  add two points */
   2    struct addpoint(struct point p1, struct point p2)
   3    {
   4        p1.x += p2.x;
   5        p1.y += p2.y;
   6        return p1;
   7    }

6.4. 判断点是否在矩形中

   1    /* ptinrect:  return 1 if p in r, 0 if not */
   2    int ptinrect(struct point p, struct rect r)
   3    {
   4        return p.x >= r.pt1.x && p.x < r.pt2.x
   5            && p.y >= r.pt1.y && p.y < r.pt2.y;
   6    }

6.5. 矩形规范化

   1    #define min(a, b) ((a) < (b) ? (a) : (b))
   2    #define max(a, b) ((a) > (b) ? (a) : (b))
   3 
   4    /* canonrect: canonicalize coordinates of rectangle */
   5    struct rect canonrect(struct rect r)
   6    {
   7        struct rect temp;
   8 
   9        temp.pt1.x = min(r.pt1.x, r.pt2.x);
  10        temp.pt1.y = min(r.pt1.y, r.pt2.y);
  11        temp.pt2.x = max(r.pt1.x, r.pt2.x);
  12        temp.pt2.y = max(r.pt1.y, r.pt2.y);
  13        return temp;
  14    }

6.6. 关键字统计

编写这样一个程序,它用来统计输入中各个C语言关键字出现的次数。 

   1    struct key {
   2        char *word;
   3        int count;
   4    } keytab[] = {
   5        "auto", 0,
   6        "break", 0,
   7        "case", 0,
   8        "char", 0,
   9        "const", 0,
  10        "continue", 0,
  11        "default", 0,
  12        /* ... */
  13        "unsigned", 0,
  14        "void", 0,
  15        "volatile", 0,
  16        "while", 0
  17    };


   1    #include <stdio.h>
   2    #include <ctype.h>
   3    #include <string.h>
   4 
   5    #define MAXWORD 100
   6 
   7    int getword(char *, int);
   8    int binsearch(char *, struct key *, int);
   9 
  10    /* count C keywords */
  11    main()
  12    {
  13        int n;
  14        char word[MAXWORD];
  15 
  16        while (getword(word, MAXWORD) != EOF)
  17            if (isalpha(word[0]))
  18                if ((n = binsearch(word, keytab, NKEYS)) >= 0)
  19                    keytab[n].count++;
  20        for (n = 0; n < NKEYS; n++)
  21            if (keytab[n].count > 0)
  22                printf("%4d %s\n",
  23                    keytab[n].count, keytab[n].word);
  24        return 0;
  25    }
  26 
  27    /* binsearch:  find word in tab[0]...tab[n-1] */
  28    int binsearch(char *word, struct key tab[], int n)
  29    {
  30        int cond;
  31        int low, high, mid;
  32 
  33        low = 0;
  34        high = n - 1;
  35        while (low <= high) {
  36            mid = (low+high) / 2;
  37            if ((cond = strcmp(word, tab[mid].word)) < 0)
  38                high = mid - 1;
  39            else if (cond > 0)
  40                low = mid + 1;
  41            else
  42                return mid;
  43        }
  44        return -1;
  45    }


   1    /* getword:  get next word or character from input */
   2    int getword(char *word, int lim)
   3    {
   4        int c, getch(void);
   5        void ungetch(int);
   6        char *w = word;
   7 
   8        while (isspace(c = getch()))
   9            ;
  10        if (c != EOF)
  11            *w++ = c;
  12        if (!isalpha(c)) {
  13            *w = '\0';
  14            return c;
  15        }
  16        for ( ; --lim > 0; w++)
  17            if (!isalnum(*w = getch())) {
  18                ungetch(*w);
  19                break;
  20            }
  21        *w = '\0';
  22        return word[0];
  23    }

Examples_from_TCPL (2008-02-23 15:37:07由localhost编辑)

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